Lubricating composition



Patented Oct. 13,, 1942 LUBRICAT ING COIVIPOSITION Carl F. Prutton, East Cleveland, Ohio, assignor to The Lubri-Zol Corporation, Cleveland, Ohio, a corporation of Ohio No Drawing. Application October 4, 1939, Serial No. 297,873

31 Claims.

This invention relates as indicated to certain new lubricating compositions having desirable properties not possessed by any previously available lubricant as well as to certain previously known general types of lubricants which, according to this invention, are so improved that they may be advantageously employed for purposes for which they heretofore have not been practically useful.

A particular property required by many lubricants used today is an ability to prevent seizure and scoring of relatively moving metallic sur faces operating under extremely high pressures per unit area, in many cases considerably in excess of 10,000 pounds per square inch. Pressures on this order have long been encountered in the metal working industry, particularly in die drawing, sheet metal forming, etc. Lubricants for such uses have generally contained appreciable amounts of' certain materials which are decidedly corrosive to the metals with which' they have been used. Although dies had frequently to be replaced, such corrosion has been tolerated in order to achieve extreme pressure lubrication and could be tolerated only because the relatively moving metallic surfaces lubricated did not operate in contact with each other for any length of time and accordingly there was no appreciable corrosion of the surfaces of the materials being worked.

Most, if not all, of the presently known extreme pressure addition agents employed in lubricants rely upon one form or another of chemical or physico-chemical action between the addition agent and the relatively moving surfaces for the desired extreme pressure effect.

It ,is generally true that those addition agents which most greatly improve the extreme pressure characteristics of the lubricant are likewise the most chemically active. The sole fact that an addition agent very greatly improves the extreme pressure characteristics of the resultant composition does not in itself, therefore, render such addition agent desirable for all uses since its general corrosive character may, by far, outweigh the beneficial effect of the same in imparting extreme pressure characteristics.

When a lubricant is used in the crank case or even the gear cases of automobiles and the like, such lubricant must not be normally chemially active to any substantial degree. Other- Wise the lubricant will either destroy or at least render inoperative in a very short time the very mechanism it is desired to protect. As above .pointed out, if the lubricant is to possess extreme pressure characteristics it must, however, under the conditions imposed by extreme pressures in use, be chemically or physico-chemically active to a degree on the bearing surfaces in order to prevent seizure and scoring of such surfaces.

In my issued Patent No. 1,986,651 I have provided one solution to this problem, by pointing out that the general stability of the halogenated carbon ring compounds is such that under ordinary conditions they will not hydrolize and cause undesirable corrosion but nevertheless under conditions of extreme pressure and relative movement of the bearing surfaces they are sumciently active to provide the desired extreme pressure characteristics.

As above indicated, there are numerous materials which, on account of their chemical activity, are very efiective in imparting extreme pressure characteristics to a lubricating composition but in the past have not been generally usable for such purpose, particularly when the lubricant in which they are employed is to be used in gear boxes and crank cases. and for the very reason of their chemical activity.

In the present-day processes for the refining of mineral lubricating oils to render the same useful under all conditions generally encountered in the field it is customary to carry such refining processes to considerable length in order to insure the removal from the finished lubricant of minor amounts of naturally occurring components which, if not removed, would render the oil undesirably corrosive. These refining processes necessary to thus insure the removal of all or substantially all of the naturally occurring corrosive components generally result, however, in a simultaneous removal or destruction of certain other valuable components in the oil, the absence or destruction of which materially decreases the efficiency and life of the lubricating composition. In addition, in the case of solvent-refined lubricating oils there sometimes remain small amounts of corrosive re-agents in the oils and certain naturally occurring corrosion inhibitors have been removed. All such refining processes are expensive.

It may also be desired to add certain corrosive organic compounds to lubricants to act as pour point depressors, anti-oxidants, agents to improve oiliness, etc. The advent of a suitable corrosion inhibitor thus greatly enlarges the field of opportunity to improve lubricants in a wide variety of ways.

It is a principal object of this invention, therefore, to provide a lubricating composition which employs to advantage the desirable characteristics of the lubricants or lubricant addition agents but in such manner and in such form that the previously mentioned undesirable characteristics thereof are either entirely eliminated or reduced to such an extent as to be no longer objectionable.

It is a further object of this invention to provide a lubricating composition containing a combination of addition agents in which the effect of at least one of such addition agents is to negative the undesirable characteristics of the other and at the same time cooperate therewith to improve to an exceptional degree its desirable properties.

It is a still further object of this invention to provide a lubricating composition which employs as its primary constituent or base a lubricant or oil which heretofore has not been usable as such except upon extensive refinement, thus obtaining a final composition which is not only more economical to produce but which also has.

superior lubricating properties. Other objects of this invention will appear as the description proceeds.

To the accomplishment of the foregoing and related ends, this invention, then, consists of the means hereinafter fully described, and particularly pointed out in the claims, the following description setting forth in detail certain approved combinations of ingredients embodying my invention, such disclosed means constituting, however, but certain of various forms in which the principle of the invention may be used.

Thisinvention, broadly stated, comprises the use in lubricating compositions of suitable nitrogen and oxygen containing organic corrosion inhibitors which render useful for general lubricating purposes compositions which heretofore, due either to a naturally occurring corrosive component or the presence of an intentionally added component, would not be thus generally useful.

A composition according to the present inven-- tion can best be described by having reference to the component parts thereof and accordingly in the following description such components will be described in substantially the order of their volumetric participation in the final composition.

The oil base The oil base, which in a lubricating composition formed in accordance with the present invention usually amounts to from about 80% to about 99% of the total composition, may be any suitable lubricating oil such as a mineral lubricating'oil derived from the refinement of petroleum or any of the so-called non-mineral oils such as animal, vegetable and synthetic oils.

The oil base may be any of the previously mentioned oily materials either in their naturally occurring state or after the same have been treated by such methods as direct halogenation,

more specifically chlorination, or by heating the same with materials such as sulphur and the like to produce a base material containing elements such as any of the halogens, more particularly chlorine, and sulphur and the like either in combined form as in the case of the halogenated oils or in the form of stable colloidal suspensions as in the case of certain compositions resulting from the heating with the oil of minor amounts of materials such as sulphur.

This invention also relates to the type of lubricating compositions generally referred to as greases and which contain appreciable amounts of some thickening materials such as soap.

Theviscosity of the oil base will usually depend upon two principal factors, the first and most important of which is the use to which the finished lubricating composition will be placed, and of secondary importance is the effect of the particular addition agents employed upon the viscosity of the oil base. For most purposes a lubricating oil base having a low pour point and low rate of change in viscosity per degree of temperature' change of the lubricant will be most desirable. However, in this connection itshould be pointed out that certain of the addition agents contemplated in accordance with'this invention are effective to improve the cold test of most oils such as mineral lubricating oils so that when such addition agents are employed a base oil having a relatively poor cold test may, because of the improvements in cold test by addition erties usually resulting from the use of such nonmineral oils are desired. More specifically, this invention contemplates the employment-of minor amounts of certain of the non-mineral oils as a part of the oil base, and accordingly 9, component of the final composition, in order to increase the oiliness factor of the finished lubricant. While certain of the so-called non-mineral oils, as well as certain constituents which are sometimes found as naturally occurring components of mineral lubricating oils would normally be so corrosive as to prohibit their use in lubricants employed in crank cases or the like where high temperatures and pressures are encountered, nevertheless the addition of the corrosion inhibitors and stabilizers contemplated by this invention makes such components useful for these purposes.

The primary addition agent This class of components which may, within position is designated as that of primary addition agents for the reason that these materials are usually added for the purpose of providing the principal improvement or primary change in the base oil to which they are added. The characteristics of the resultant composition to the achievement of which these so-called primary addition agents are added are generally extreme pressure characteristics, improved cold test, reduced sludge formation and the like.

The relatively unstable halogenated organic compounds which may be employed as addition agents in accordance with the present invention and which, dueto their less stable character, hydrolize readily in the presence of the moisture usually found in lubricating oils and thus become corrosive or give up at least part of. their combined halogen in some other way, are the halogenated, or more specifically, chlorinated open chain compounds, as well as certain of the less stable halogenated, or more specifically, chlorinated organic ring compounds, e. g. those formed by the "addition reaction of an organic ring compound with a halogen. l V

By corrosive addition agents are generally meant such compounds as contain or will easily liberate a substance which will spontaneously retheory which best explains the ends obtained by this invention. It is believed that most corrosive action on metals is electrolytic. galvanic cells being set up by the metal and small amounts of impurities contained therein, or by the metals of an alloy, as on the surfaces of alloy bearings. A corrosloninhibitor, according to this invention, is

sulating films on anodic surfaces or will keep the immersion media at low oxygen concentrations in order to prevent depolarization of the deposited hydrogen which also provides a protective film. Organic phosphates are thought to inhibit galvanic action by forming protective films and amino compounds have the same effect by preventing the depolarization of deposited hydrogen. Phosphites probably have both effects and this may account for their outstanding merit as. corrosion inhibitors.

Any of the commonly available halogenated open chain compounds such as the following are good examples of corrosive addition agents. They are desirable as extreme pressure addition agents and some also tend to lower the pourpoint of the lubricant.

The aliphatic halogen compounds. e. g.

Carol: 8. g. I CC14 CzCh CaCls CzHyClz e. g.

C2HC13 CsHCls (C2H4Cl) 2O C11H33C12COOH Halogenated complex petroleum products In addition to the halogenated open chain compounds, w have also found that halogenated organic ring compounds of the addition type, of which the following are examples, are likewise well-suited for use in compositions in accordance with this invention:

Addition type aromatic compounds, e. g.

CHCl-CHCI I Naphthalene tetrachloride H;

C HC l-C HCl CsHsCls CeHeCh CaHcCls C12H10C10 CizHaChO C12H'IC19O CiaHeCltO Likewise certain halogen substitution products of which the following are examples are more or less corrosive:

Substitution type aromatic compound, e. g.

Chlorbenzoic acid Chlornitrobenzene Benzyl chloride (CsHsCHaCl) Plienyl ethyl chloride (CsHsCHzCHzCl) therefore anagent which will form protective in-' phur compounds which are of especial advantage as extreme pressure addition agents the following are representative examples:

Highly sulphurized polysulphides (where more than two S atoms are in one chain), e. g. Rr-S-SS R (where R is an organic group,

for example an alkyl group such as butyl or lauryl, or an aryl grbup such as phenyl or benzyl) Sulphur chloride treated non-mineral Sulphur chloride treated fatty acids.

Also, the effectiveness of free sulphur as an extreme pressure agent is well known.

The free fatty acids and halogen-bearing derivatives of themare examples of corrosive agents which are often desirable because they improve oils, either mineral or the oiliness: oleic, stearic, and naphthenic acids are good examples. v

The amount of extreme pressure addition agent of any type which may be added to the lubricant should not exceed about 20% by weight of the lubricating oil base since in most cases more would tend to unduly decrease the viscosity of the composition. For crank case lubrication about .1% to 2%, based on the amount of oil, is

Among the more or less corrosive organic sula preferred range and for gear lubrication about 1-10% is preferred. Of course some compounds are more active than others and smaller amounts are often effective, even less than .1%. When intended for use in top-oilers for automobile cylinders and the like a larger amount up to five or even ten per cent.is often desirable and for certain applications and certain addition agents the amount added may be much larger. up to about 20%, without unduly reducing the viscosity of the lubricant.

Thes limitations are also generally applicable to most of the types of addition agents commonly added to lubricating oils. It should be noted, however, that some compounds especially suitable for lowering the pour-point of lubricants need only be added in amounts considerably less than those indicated above.

The corrosion inhibitors These components of the finished lubricating composition are generally referred to as corrosion inhibitors since they are primarily employed for the purpose of rendering non-corrosive either the oil base or the primary addition agent, or the combination of the same. It should be noted, however, that the components hereinbelow given as representative examples of corrosion inhibitors which may be employed in accordance with this invention likewise have other desirable advantages when used as components and incertain cases such other advantages may be of even great er importance than their corrosion inhibiting characteristics.

These nitrogen and oxygen-containing organic corrosion inhibitor components should be soluble or miscible in the oil base and compatible there"- with. Specific examples of these corrosion inhibitors are as follows:

Tri-ethanol amine Amino phenols Amino naphthols Di-ethyl amino phenol Benzyl amino phenol Hydroxy quinoline B-Amino benzophenone Benzoyl a-naphthyl amine In general, a lubricating composition in accordance with my invention may comprise a major proportion of a suitable oil base of the character above defined and a total of an e fective amount up to 20% by weight, based on the amount of oil, of the previously named primary addition agents along with the necessary amount of the corrosion inhibiting agent. When the corrosion inhibiting agent is itself an extreme pressure addition agent, then a corresponding smaller amount of the corrosive agent need be added.

Generally a finished lubricating composition for uses such as a gear lubricant will preferably contain greater amounts of the primary or extreme pressure addition agent than lubricating compositions designed for use in thecrank casesof internal combustion engines. Of course the type of compound, its relative activity and'the particular type of gearing, for example, to be lubricated, determines in each case the propontions of the addition agents to be employed. In general, gear lubricants may contain from about 1% to about 10% of the primary or extreme pressure addition agent, whereas crank case lubricants generally contain from. about /2% to about 5% of the primary or extreme pressure additionagents. These figures are merely intended to indicate the relative amounts of the primary addition agents which are employed for different .uses since entirely satisfactory crank case lubricants, for example, may be prepared by the employment of from about .10.% to 2% of the primary additionagent.

As previously indicated, the amount oi secondary or corrosion inhibiting addition agent varies depending upon the type of primary addition agent with which it is combined, the type of base oil used in compounding the composition and the ultimate use for which the finished'lubricant is designed. Broadly, be found of utility in percentage of from about .001% to about although for most uses amounts of from 01% to about 2% will be employed.

When most of the primary addition agents above identified are employed for use in ccnventional extreme pressure lubricants, the corrosion inhibitor will be used in concentrations of about .05% to about 1%. When the primary addition agent is a halogen compound and the finished lubricating composition is designed for use as a gear lubricant or crank case lubricant, the corrosion inhibitor will generally be employed in percentage of from about .1% to about Both addition components should of course be oil-soluble within the percentages contemplated by this invention. By oil-soluble is also meant miscible and capable of forming stable colloidal suspensions. In order that these compounds may not be lost by volatilization when these compounds are intended particularly for use in lubricants for internal combustion engines they should be comparatively non-volatile, having vapor pressures less than atmospheric at 140 C. and pref erably at 170 C.

For the purpose of lubricating and reducing the friction between the relatively moving parts of an internal combustion engine, such as crank case bearings, the addition compounds should be stable and preferably capable of distillation at atmospheric pressure without appreciable decomposition.

Some of the more important uses of the various types of compounds disclosed in this application are the following: i

the corrosion inhibitors will k aaeaese (1.) Metal drawing and forming operations (here the least stable and most corrosive compounds are permissible).

(2) Gears and bearings under conditions of extreme pressure (requires more stable materials than 1)).

(3) Motor oil for internal combustion engines (the active materials should be more stable than in (2)).

(4) Top cylinder lubricants (only where the active compounds are particularly stable). I

This application is a continuation-impart of my co-pending applications Serial No. 737,070,

. filed July 26, 1934, and Serial No. 119,132, filed January 5, 1937, now Patent No. 2,178,514.

Other modes of applying the principle of my invention may be employed instead of the one explained, change being made as regards the process herein disclosed or the materials employed in carrying out the process, provided the step or steps stated by any of the following claims or the equivalent of such stated step or steps be employed.

I therefore particularly point out and distinctly claim as my invention:

1. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at C., the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated. said composition additionally having included therein a minor amount of an oil-soluble organic nitrogen and oxygen containing corrosion inhibitor and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially de creased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

2. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oil-soluble extreme'pressure addition agent having a vapor pressure less than atmospheric at C., the efiectiveness of which is dependent upon lts ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of oil-solub1e organic nitrogen and oxygen con taining corrosion inhibitor and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially de creased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

3. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil. the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oil-soluble halogen. bearing organic extreme pressure addition agent having a Vapor pressure less than atmospheric at 140 C., the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein minor amount of an oil-soluble organic nitrogen and oxygen containing corrosion inhibitor and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

4. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oil-soluble chlorine bearing extreme pressure addition agent having a vapor pressure less than atmospheric at 170 C., the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic nitrogen and oxygen containing corrosion inhibitor and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

5. An extreme pressure lubricating composition comprising essentially a refined mineral lubrieating oil which inherently possesses the properties of a satisfactory lubricant for metallic bearing surfaces operating under normal conditions wherein a substantially continuous film of such oil functions as the lubricating medium between the bearing surfaces and which oil is also fortified so as to function satisfactorily under conditions which tend to disrupt such continuous oil film by having dissolved therein a small amount of a stable, oil soluble extreme pressure addition agent the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated under conditions of film rupture as above defined and such composition being further characterized by the inclusion therein of a minor amount of an oil soluble organic nitrogen and oxygen containing corrosion inhibitor and by the further fact that the inclusion of such corrosion inhibitor has not substantially decreased the extreme pressure properties imparted to the composition by said extreme pressure addition agent.

6. An extreme pressure lubricating composition comprising essentially a refined mineral lubrieating oil which inherently possesses the properties of a satisfactory lubricant for metallic bearing surfaces operating under normal conditions wherein a substantially continuous film of such oil functions as the lubricating medium between the bearing surfaces and which oil is also fortified so as to function satisfactorily under conditions which tend to disrupt such continuous oil film by having dissolved therein a small amount, less than 20%, based on the amount of lubricating oil, of a stable, oil soluble chlorine bearing organic extreme pressure addition agent having a vapor pressure less than atmospheric at 140 C. the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated under conditions of film rupture as above defined and such composition being'further characterized by the inclusion therein of from about .05% to about of an oil soluble organic nitrogen and oxygen containing corrosion inhibitor having a vapor pressure less than atmospheric at 140 C., and by the further fact that the inclusion of such corrosion inhibitor has not substantially decreased the extreme pressure properties imparted to the composition by said extreme pressure addition agent.

'7. An extreme pressure lubricating composition comprising essentially a refined mineral lubrieating oil which inherently possesses the properties of a satisfactory lubricant for metallic bearing surfaces operating under normal conditions wherein a substantially continuous film of such oil functions as the lubricating medium between the bearing surfaces and which oil is also fortified so as to function satisfactorily under conditions which tend to disrupt such continuous oil film by having dissolved therein from about .1% to about 2%, based on the amount of lubricating oil, of a stable, oil soluble chlorine bearing organic extreme pressure addition agent having a vapor pressure less than atmospheric at 140 C. the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated under conditions of film rupture as above defined and such composition being further characterized by the inclusion therein of from about .05% to about 5% of an oil soluble organic nitrogen and oxygen containing corrosion inhibitor having a vapor pressure less than atmospheric at 140 C., and by the furagent.

8. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oil-soluble extreme pressure addition agent having a vapor pressure less than atmospheric at C., comprising a halogenated organic ring compound the eifectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 C., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

9. An extreme pressure lubricating composition comprising a major. proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oil-soluble extreme pressure addition agent having a vapor pressure less than atmospheric at 140- C., comprising a halogen-bearing aromatic compound the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated,' said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 C., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

10. An extreme pressure lubricating composition comprising a major proportion of a refined ing a vapor pressure less than atmospher'c at l--i 6., comprising a halogenated aromatic comround of the addition type the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubr ted, said composition additionally having included therein a minor amount of an oil soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 comprising an organic nitrogen and oxygen containing compound, and 10 clusion therein of a minor amount of stable, oil- 2 soluble extreme pressure addition agent a vapor pressure less than atmospheric at 140 C, comprising naphthalene tetrachloride the eifectiveness of which is dependent upon its ability to chemically react with the n'ietallic surfaces to 25 be lubricated, said composition additionally having included therein a minor amount of an oilsoluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 comprising an organic nitrogen and oxygen contain- 3 ing compound, and. being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased treme pressure properties imparted thereto said extreme pressure addition agent. 3*-

12. An extreme pressure lubricating coinposition comprising a major proportion of refined mineral lubricating oil, the load carrying ability of which. is substant .liy increased by inclusion therein of a up or amount of stable, oilsoluble extreme pressure ddition agent ha vapor pressure less than atmospheric Ml" comprising a halogen-bearing aromatic compound of the substitution type the erlectiveness of which is dependent upon its ability to chemi 45 cally react with the metallic surfaces to cated, said composition additionally bavip eluded therein a minor amount oi solos; organic corrosion inhibitor having a vapor pres sure less than atmospheric at f compri an organic nitrogen and oxygen containing com-- pound, and being characterized by cl; the inclusion of such corrosion inhibitor therein has not substantially decreased the eatre essure properties imparted thereto by said pressure addition agent.

13. An extreme pressure lubricating composit tiou comprising a major proportion o mineral lubricating oil, the load car in of which is substantially increased by th sion therein of a minor amount st soluble extreme pressure addition vapor pressure less than atmospheri comprising a halogen bearing a c pound containing an aliphatic sub-L u fectivcness of which is dependent upon its to chemically react with the metallic surfaces to be lubricated, said composition additionally haying included therein a minor amount soluble organic corrosion inhibitor h pressure less than atmospheric at .s m, prising an organic nitrogen and oxygen on ing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor t-erein has not substantially decreased treme pressure properties imparted thereto by said extreme pressure addition agent.

i l. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oil-soluble extreme pressure addition agent having a vapor pressure less than atmospheric at 140 C comprising an aromatic substituted halogenated aliphatic compound the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 0., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

15. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oil-soluble extreme pressure addition agent having a vapor pressure less than atmospheric at 149 comprising an arylated chlor-aliphatic compound the effectiveness of which is dependent upon. its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 (3., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein. has not subn ially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

16. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor'amount of a stable, oil-soluble extreme pressure addition agent having a vapor pressure less than atmospheric at comprising a compound of the type XII? 7 Where lo is an aromatic radicle; X is a halogen; and and 2 are hydrogen, an organic radicle or a halogen; the effectiveness of which dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein 2 inor amount of an oil-soluble organic corro ion inhibitor having a vapor pressure less than at 140 (3., comprising an organic itrogen and oxygen containing compound, and

tion comprising a major proportion of a refined mineral lubricating oil, the load carrying ability which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor plessure less than atmospheric at 140 C., comprising a compound in which the phenyl group has been substituted for a hydrogen atom of a halogenated aliphatic compound the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140? C., comprising an oiganic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

18. An extreme pressure lubricating composition comprising a major proportion of a refined mmineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at 140 C., comprising benzyl chloride the eiT-ectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 0., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

19. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at 140 C., comprising a halogen bearing aliphatic compound the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said. composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 C., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

20. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at 140 C., comprising a halogen bearing aliphatic hydrocarbon the efiectiveness of which is dependent upon its ability to chemically react with the metallic suriacesto be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a-vapor pressure less than atmospheric at 140 C., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of mineral lubricating oil, the load carrying ability of which is substantially increased by the inclu sion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at l-iO C., comprising a halogenated complex petroleum product the effectiveness of which is dependent upon its ability to chemically react vvith the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inibitor having a vapor pressure less than atmospheric at 140 C., comprising an organic nitrogen and oxygen containing compound, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not sub stantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

22. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at l id" the effectiveness of which is dependent u, it its ability to chemically react with the metallic sur faces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at M0 C., comprising an oxygen containing amine, and be ing characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure proper ties imparted thereto by said extreme pressure addition agent.

23. An extremepressure lubricating composi tion comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a, stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at C., the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition. additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 (3., comprising a hydroxy-amine, and being characterlzed by the fact that the inclusion or such cor rosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

24. An extreme pressure lubricating composb tion comprising a major proportion of a refined. mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at MO C., the efiectlveness of which dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount oi? an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 0., comprising a hydroxy-aryl amine, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent. 7

25. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein ofa minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmespheric at 149 C., the effectiveness 01 which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount vapor pressure less than atmospheric at 140 C.,

the effectiveness 01 which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor having a vapor pressure less than atmospheric at 140 0., comprising amino-naphthol, and being characterized by the fact that the inclusion of such corrosion inhibitor therein has not substantially decreased the extreme pressure properties imparted thereto by said extreme pressure addition agent.

27. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability oi. which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at 140 0., the effectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount of an oil-soluble organic corrosion inhibitor hav= ing a Vapor pressure less than atmospheric at 140 C., comprising tri-ethanol amine, and being characterized by the fact that the inclusion of properties'imparted thereto by said naphthalene tetrachloride.

29. An extreme pressure lubricating composition comprising a major proporticn of a refine mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of benzyl chloride, said composition additionally having included therein a minor amount 01' amino naphthol, and being characterized by the fact that the inclusion oi said amino naphthol therein has not substantially decreased the extreme pressure nrnn-.

ertiesimparted thereto by said benzyl chloride.

30. An extreme pressure lubricating composition comprising a major proportion of a refined mineral lubricating oil, the load carrying ability of which is substantially increased by the inclusion therein of a minor amount of a stable, oilsoluble extreme pressure addition agent having a vapor pressure less than atmospheric at 0., comprising a halogenated complex petroleum product the eifectiveness of which is dependent upon its ability to chemically react with the metallic surfaces to be lubricated, said composition additionally having included therein a minor amount 01' tri-ethanol amine, and being characterized by the fact that the inclusion of such triethanol amine therein has not substantially decreased the extreme pressure properties imparted thereto by said halogenated complex petroleum derivative.

31. A new load carrying improving agent for lubricating oils comprising a major amount of a stable oil-soluble extreme pressure addition agent having a vapor pressure less than atmosphericat 140 C., and the effectiveness of which as an extreme pressure addition agent is dependent upon its ability to chemically react with metallic surfaces, and from an effective amount, up to about 50%, based on the amount 01 said extreme pressure addition agent, of an oil-soluble organic nitrogen and oxygen containing corrosion inhibitor, the effectiveness of said extreme pressure addition agent as such being substantially unimpaired by the presence of said corrosion inhibitor. 

